초록 ▼

Kilns for processing ceramics and methods for using such kilns are disclosed herein. In one embodiment, a kiln includes an inner body configured to hold one or more ceramic workpieces for processing. The kiln can also include an outer body at least partially surrounding the inner body and spaced apa

Kilns for processing ceramics and methods for using such kilns are disclosed herein. In one embodiment, a kiln includes an inner body configured to hold one or more ceramic workpieces for processing. The kiln can also include an outer body at least partially surrounding the inner body and spaced apart from the inner body to define an airflow passageway therebetween. The airflow passageway includes an inlet proximate to an upper portion of the outer body and an outlet proximate to a lower portion of the outer body. The kiln can further include an air mover positioned to move air through the airflow passageway from the inlet toward the outlet. In several embodiments, the kiln can additionally include a lid assembly pivotably coupled to the outer body and configured to sealably close against at least the inner body.

대표청구항 ▼

We claim: 1. A kiln, comprising: an inner body configured to hold one or more ceramic workpieces for processing; an outer body at least partially surrounding the inner body and spaced apart from the inner body to define an airflow passageway therebetween, the airflow passageway having an inlet prox

We claim: 1. A kiln, comprising: an inner body configured to hold one or more ceramic workpieces for processing; an outer body at least partially surrounding the inner body and spaced apart from the inner body to define an airflow passageway therebetween, the airflow passageway having an inlet proximate to an upper portion of the outer body and an outlet proximate to a lower portion of the outer body; a lid assembly pivotably coupled to the outer body and configured to sealably close against at least the inner body; a radiant barrier positioned in the airflow passageway between the inner body and the outer body, the radiant barrier including a first side facing the inner body and a second side facing the outer body; and an air mover positioned to move ambient air through the airflow passageway from the inlet toward the outlet. 2. The kiln of claim 1 wherein the lid assembly includes at least a portion of the inlet of the airflow passageway. 3. The kiln of claim 1, further comprising a latch assembly configured to releasably secure the lid assembly in a closed position when the temperature in the inner body is above a preset temperature. 4. The kiln of claim 1 wherein: the lid assembly has a first chamfered interface portion; and the inner body has a second chamfered interface portion configured to cooperate with the first chamfered interface portion to seal the inner body when the lid assembly is closed. 5. The kiln of claim 1 wherein the radiant barrier defines (a) a first portion of the airflow passageway between the inner body and the first side of the radiant barrier, and (b) a second portion of the airflow passageway between the second side of the radiant barrier and the outer body. 6. The kiln of claim 5 wherein the first portion of the airflow passageway operates at a first temperature and the second portion of the airflow passageway operates at a second temperature less than the first temperature. 7. The kiln of claim 1 wherein the inlet is a first inlet and the radiant barrier is a first radiant barrier, and wherein the kiln further comprises: a second radiant barrier carried by the lid assembly, wherein the second radiant barrier is laterally offset from the first radiant barrier when the lid assembly is closed to define a second inlet positioned to draw additional air into the airflow passageway. 8. The kiln of claim 1 wherein the inlet is a first inlet and the radiant barrier is a first generally cylindrical radiant barrier having a first diameter, and wherein the kiln further comprises: a second generally cylindrical radiant barrier carried by the lid assembly, the second radiant barrier having a second diameter less than the first diameter to define a second inlet positioned to draw additional air into the airflow passageway when the lid assembly is closed. 9. The kiln of claim 1 wherein the radiant barrier further comprises a plurality of fins projecting from the first side of the radiant barrier toward the inner body. 10. The kiln of claim 1 wherein the first side of the radiant barrier includes a highly reflective surface. 11. The kiln of claim 1 wherein the inner body comprises a refractory portion. 12. The kiln of claim 1 wherein the outer body is configured to releasably receive a kiln transport assembly. 13. The kiln of claim 1 wherein the air mover is positioned proximate to the lower portion of the outer body. 14. The kiln of claim 13 wherein the air mover is centrally located beneath the inner body. 15. The kiln of claim 1, further comprising a plurality of air intake portions in the outer body adjacent to a lower portion of the inner body, the air intake portions being in fluid communication with the airflow passageway. 16. The kiln of claim 1, further comprising a debris screen positioned proximate the inlet of the airflow passageway. 17. A portable kiln, comprising: an inner body configured to hold one or more ceramic workpieces for processing; an outer body at least partially surrounding the inner body and spaced apart from the inner body to define an airflow passageway therebetween, the airflow passageway having an inlet proximate to an upper portion of the outer body and an outlet proximate to a lower portion of the outer body; a lid assembly operably coupled to the outer body and configured to sealably close against at least the inner body; a radiant barrier positioned in the airflow passageway between the inner body and the outer body; and a fan proximate to the lower portion of the outer body and positioned to move ambient air through the airflow passageway from the inlet toward the outlet to cool the inner body during processing of the one or more ceramic workpieces placed therein. 18. The portable kiln of claim 17 wherein the lid assembly includes at least a portion of the inlet of the airflow passageway. 19. The portable kiln of claim 17 wherein: the lid assembly has a first chamfered portion; and the inner body has a second chamfered portion configured to cooperate with the first chamfered portion to seal the inner body when the lid assembly is closed. 20. The portable kiln of claim 17 wherein: the lid assembly includes a lower edge portion and a first chamfered portion at the lower edge portion; and the inner body includes a sidewall having an upper edge portion and a second chamfered portion at the upper edge portion, the second chamfered portion being configured to cooperate with the first chamfered portion to seal the inner body when the lid assembly is closed. 21. The portable kiln of claim 17, further comprising a latch assembly configured to releasably secure the lid assembly in a closed position when the temperature in the inner body is above a preset temperature. 22. The portable kiln of claim 17 wherein the radiant barrier includes a first side facing the inner body and a second side facing the outer body, the radiant barrier defining (a) a first portion of the airflow passageway between the inner body and the first side of the radiant barrier, and (b) a second portion of the airflow passageway between the second side of the radiant barrier and the outer body. 23. The portable kiln of claim 22 wherein the first portion of the airflow passageway operates at a first temperature and the second portion of the airflow passageway operates at a second temperature less than the first temperature. 24. The portable kiln of claim 17 wherein the inlet is a first inlet and the radiant barrier is a first radiant barrier, and wherein the kiln further comprises: a second radiant barrier carried by the lid assembly, wherein the second radiant barrier is laterally offset from the first radiant barrier when the lid assembly is closed to thereby define a second inlet positioned to draw additional air into the airflow passageway to cool the inner body. 25. The portable kiln of claim 17 wherein the first side of the radiant barrier has a first level of reflectivity and the second side has a second level of reflectivity less than the first level. 26. The kiln of claim 17 wherein the outer body includes an interface portion configured to receive a portion of a kiln transport assembly. 27. The kiln of claim 17 wherein the outer body includes one or more channels configured to releasably receive an engagement member of a kiln transport assembly. 28. A portable kiln, comprising: a ceramic processing chamber; an outer body at least partially surrounding the processing chamber and spaced apart from the processing chamber to define an airflow passageway therebetween, the airflow passageway having an air inlet proximate to an upper portion of the outer body and an air outlet proximate to a lower portion of the outer body; a lid assembly pivotably coupled to the outer body and configured to sealably close against at least the processing chamber; radiant barrier means for dividing the airflow passageway between the processing chamber and the outer body; and airflow means for moving ambient air through the airflow passageway from the air inlet toward the air outlet to cool the processing chamber. 29. The kiln of claim 28 wherein the radiant barrier means for dividing the airflow passageway includes a first side facing the processing chamber and a second side facing the outer body, the radiant barrier means defining (a) a first portion of the airflow passageway between the processing chamber and the first side of the radiant barrier means, and (b) a second portion of the airflow passageway between the second side of the radiant barrier means and the outer body. 30. The kiln of claim 29 wherein the first portion of the airflow passageway operates at a first temperature and the second portion of the airflow passageway operates at a second temperature less than the first temperature. 31. The kiln of claim 28 wherein the airflow means includes a fan proximate to the lower portion of the outer body and positioned to move air through the airflow passageway from the air inlet toward the air outlet. 32. A method for processing a ceramic workpiece in a processing chamber of a kiln, the method comprising: increasing a temperature in the processing chamber to process the ceramic workpiece; reflecting at least a portion of the heat generated by the processing chamber during processing back toward the inner body using a radiant barrier positioned in the airflow passageway; and flowing ambient air from an inlet positioned proximate to an upper portion of the kiln through a passageway extending at least partially around the processing chamber to maintain the temperature of an exterior portion of the kiln at or below a preset temperature. 33. The method of claim 32 wherein increasing the temperature within processing chamber includes increasing the temperature to about 1800 degrees Fahrenheit or more. 34. The method of claim 32, further comprising exhausting the air through an outlet positioned proximate to a lower portion of the kiln. 35. The method of claim 32, further comprising: releasably engaging a kiln transport assembly with an outer body of the kiln; moving the kiln from a first location to a second location; and removing the kiln transport assembly from the outer body of the kiln. 36. The method of claim 32 wherein the airflow passageway includes a first portion of the airflow passageway between the outer wall of the processing chamber and the radiant barrier and a second portion of the airflow passageway between the radiant barrier and an outer body of the kiln, and wherein the method further comprises: flowing air through both the first portion of the airflow passageway and the second portion of the airflow passageway. 37. A kiln, comprising: an inner body configured to hold one or more ceramic workpieces for processing; an outer body at least partially surrounding the inner body and spaced apart from the inner body to define an airflow passageway therebetween, the airflow passageway having an inlet proximate to an upper portion of the outer body and an outlet proximate to a lower portion of the outer body; a plurality of air intake portions in the outer body adjacent to a lower portion of the inner body, the air intake portions being in fluid communication with the airflow passageway; a lid assembly pivotably coupled to the outer body and configured to sealably close against at least the inner body; and an air mover positioned to move ambient air through the airflow passageway from the inlet toward the outlet.